Temperature response of all-optical XOR logic function based on different semiconductor optical amplifiers

Amer Kotb; Gopal Verma; Wei Li

doi:10.1080/09500340.2022.2090630

Temperature response of all-optical XOR logic function based on different semiconductor optical amplifiers

Amer Kotb^*
, Gopal Verma
, Wei Li

^*Corresponding author for this work

GPL
CAS - Changchun Institute of Optics Fine Mechanics and Physics
Al-Fayoum University

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

A critical area of research is studying the performance of semiconductor optical amplifiers (SOAs) at high temperatures. In this paper, the performance of all-optical exclusive-OR (XOR) logic gate is investigated at high operating temperatures (T_OP) using different SOAs technologies such as conventional SOAs, carrier reservoir (CR)-SOAs, reflective SOAs (RSOAs), and photonic crystal (PC)-SOAs, for the first time to our knowledge. The time-dependent differential equations of SOAs, CR-SOA, RSOAs, and PC-SOAs at different operating data rates have been solved. The performance of the XOR logic gate is evaluated by calculating the quality factors and plotting the eye diagrams for each amplifier. Besides, the dependence of the key operating parameters on the T_OP is examined and assessed for each scheme. The results showed that the RSOAs perform better at high temperatures than other proposed SOA technologies.

Original language	English
Pages (from-to)	769-778
Number of pages	10
Journal	Journal of Modern Optics
Volume	69
Issue number	14
DOIs	https://doi.org/10.1080/09500340.2022.2090630
Publication status	Published - 2022
Externally published	Yes

Keywords

operating temperature
quality factor
semiconductor optical amplifier
XOR logic gate

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10.1080/09500340.2022.2090630

Cite this

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title = "Temperature response of all-optical XOR logic function based on different semiconductor optical amplifiers",

abstract = "A critical area of research is studying the performance of semiconductor optical amplifiers (SOAs) at high temperatures. In this paper, the performance of all-optical exclusive-OR (XOR) logic gate is investigated at high operating temperatures (TOP) using different SOAs technologies such as conventional SOAs, carrier reservoir (CR)-SOAs, reflective SOAs (RSOAs), and photonic crystal (PC)-SOAs, for the first time to our knowledge. The time-dependent differential equations of SOAs, CR-SOA, RSOAs, and PC-SOAs at different operating data rates have been solved. The performance of the XOR logic gate is evaluated by calculating the quality factors and plotting the eye diagrams for each amplifier. Besides, the dependence of the key operating parameters on the TOP is examined and assessed for each scheme. The results showed that the RSOAs perform better at high temperatures than other proposed SOA technologies.",

keywords = "operating temperature, quality factor, semiconductor optical amplifier, XOR logic gate",

author = "Amer Kotb and Gopal Verma and Wei Li",

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year = "2022",

doi = "10.1080/09500340.2022.2090630",

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TY - JOUR

T1 - Temperature response of all-optical XOR logic function based on different semiconductor optical amplifiers

AU - Kotb, Amer

AU - Verma, Gopal

AU - Li, Wei

PY - 2022

Y1 - 2022

N2 - A critical area of research is studying the performance of semiconductor optical amplifiers (SOAs) at high temperatures. In this paper, the performance of all-optical exclusive-OR (XOR) logic gate is investigated at high operating temperatures (TOP) using different SOAs technologies such as conventional SOAs, carrier reservoir (CR)-SOAs, reflective SOAs (RSOAs), and photonic crystal (PC)-SOAs, for the first time to our knowledge. The time-dependent differential equations of SOAs, CR-SOA, RSOAs, and PC-SOAs at different operating data rates have been solved. The performance of the XOR logic gate is evaluated by calculating the quality factors and plotting the eye diagrams for each amplifier. Besides, the dependence of the key operating parameters on the TOP is examined and assessed for each scheme. The results showed that the RSOAs perform better at high temperatures than other proposed SOA technologies.

AB - A critical area of research is studying the performance of semiconductor optical amplifiers (SOAs) at high temperatures. In this paper, the performance of all-optical exclusive-OR (XOR) logic gate is investigated at high operating temperatures (TOP) using different SOAs technologies such as conventional SOAs, carrier reservoir (CR)-SOAs, reflective SOAs (RSOAs), and photonic crystal (PC)-SOAs, for the first time to our knowledge. The time-dependent differential equations of SOAs, CR-SOA, RSOAs, and PC-SOAs at different operating data rates have been solved. The performance of the XOR logic gate is evaluated by calculating the quality factors and plotting the eye diagrams for each amplifier. Besides, the dependence of the key operating parameters on the TOP is examined and assessed for each scheme. The results showed that the RSOAs perform better at high temperatures than other proposed SOA technologies.

KW - operating temperature

KW - quality factor

KW - semiconductor optical amplifier

KW - XOR logic gate

UR - https://www.scopus.com/pages/publications/85132801565

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DO - 10.1080/09500340.2022.2090630

M3 - Article

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EP - 778

JO - Journal of Modern Optics

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ER -

Temperature response of all-optical XOR logic function based on different semiconductor optical amplifiers

Abstract

Keywords

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